Method of configuring a tracking device

ABSTRACT

A method of configuring a tracking device including accessing a tracking device management system comprising a tracking system server and a database with a terminal through a management system communication interface. A desired configuration option is selected from a plurality of configuration options provided by the tracking system server and the tracking device configuration settings are requested from the tracking system server for the desired configuration option. The configuration settings are transmitted from the database to the terminal for display. Further, the configuration settings are modified at the terminal to produce modified configuration settings and transmitted to the tracking device management system through the management system communication interface. A command is then transmitted from the tracking device management system to the tracking device through a tracking device communication link to configure the tracking device to reflect the modified configuration settings.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a divisional application of U.S. patent application Ser. No. 10/222,979, filed Aug. 19, 2002 now U.S. Pat. No. 7,171,187, which claims priority from Canadian Patent Application No. 2,355,426, filed Aug. 17, 2001, and incorporated herein by reference.

BACKGROUND OF THE INVENTION

The invention relates to the field of telematics, and more specifically to a system and method for remote tracking of assets by using a cellular telephone and Internet communication network where the remote tracking includes locating, configuring and monitoring devices associated with the asset being tracked.

The term telematics is often used to refer to automobile based asset tracking systems that combine global positioning system (“GPS”) satellite tracking and wireless communications for automatic roadside assistance and remote diagnostics.

Referring to FIG. 1, there is shown a block diagram illustrating a general telematics system 100 in accordance with the prior art. Typically, a telematics system 100 includes services 110, platforms 120, networks 130, auto/freight sector clients 140, and positioning technologies 150. The services 110 provided by the telematics system 100 may include automatic roadside assistance, accident notification, traffic information, diagnostics, mobile Internet access, fleet management, and navigation. The platforms 120 on which the telematics system 100 may update may include servers, gateways, and billing and customer-care call centres. The networks 130 by which communications are provided may include voice, short messaging system (“SMS”) messaging, and wireless application protocol (“WAP”). The auto/freight sector clients 140 serviced by the telematics system 100 may include passenger vehicles, trucks, freight, public safety applications. Typically, telematics systems 100 perform applications including vehicle or equipment (i.e. asset) location, driver concierge services, fleet management, and navigation/traffic information services.

Typically, an asset tracking device or module is installed in the vehicle to be tracked. The location of the device is determined by the telematics system 100 using a positioning technology 150 such as GPS or time difference of arrival (“TDOA”). The location information is then provided to an application to service a customer.

GPS technology provides specially coded satellite signals that can be processed in a GPS receiver that enables the receiver to compute position, velocity and direction. The main problem with current GPS technology is the requirement for an unobstructed view of the sky for communication with GPS satellites. Its advantage is that is can provide a location anywhere in the world without any additional infrastructure on the ground. Improved receiver performance and signal processing and new technologies, like “Enhanced GPS,” will provide locations where traditional GPS would fail.

On the other hand, TDOA uses the existing cellular network infrastructure to determine location. Referring to FIG. 2, there is shown a flow diagram illustrating a typical TDOA process 200. The process requires signal timing information from at least three different antenna sites. At step 1, a handset or vehicle places a call (e.g. a 911 call). At step 2, antennae receive the signal from the handset or vehicle and pass it to a carrier's mobile switching office. At step 3, TDOA equipment measures the difference in the time the cellular radio signals arrive at the antenna sites and translate that data into location data (i.e. longitude and latitude data). At step 4, the carrier forwards voice call and location data to a Public Safety Answering Point (“PSAP”). The use of TDOA is typically restricted to areas where coverage from multiple towers is available.

The communications networks 130 for linking tracking devices to platforms 120 to provide services 110 to customers, include cellular and telephone networks. With respect to cellular networks, network providers, such as Aeris.net.™. (“Aeris”) and Cellemetry.RTM., typically make use of the Advanced Mobile Phone System (“AMPS”) control channel frequencies for the transfer of small data packets. The use of the cellular network control channel provides more robust communication than cellular voice traffic so that it is possible to communicate with devices located in places where ordinary cell phones have marginal or intermittent voice coverage. Clients of these virtual carriers can make use of a TCP/IP data link to connect their operations centre to the virtual carrier network which then provides continent wide coverage through cellular service providers.

For example, in U.S. Pat. No. 6,131,067, to Girerd, et al, a client-server based system is described in which the location of a tracking device is determined using GPS information. This location is then reported to a user via the Internet.

While tracking assets is important, also of importance is the personal safety of users of the asset, such as a motor vehicle. It is recognized that most vehicles are or will be equipped with some form of tracking system. However, none of these systems are able to monitor the personal safety of the user from a remote location when the user is outside or some distance from the vehicle.

What is lacking in existing telematics systems and asset tracking devices, however, is a way for a user to not only locate a tracking device but also to effectively configure the tracking device to monitor the vehicle or asset or a component of the asset in which the tracking device is installed. What is also lacking is a way for asset tracking devices to monitor panic alarms generated by persons in the proximity of monitored assets.

SUMMARY OF THE INVENTION

In accordance with one aspect of the invention, an asset tracking system is provided that includes: a tracking device for mounting in an asset for receiving a panic alarm indication and for communicating GPS information and the panic alarm indication over a cellular telephone network; a panic alarm pendant for carrying by a first user for transmitting a panic alarm signal; a RE receiver module for mounting in the asset for receiving the panic alarm signal from the pendant and for generating the panic alarm indication when within a predetermined radius; and, a server coupled to the cellular telephone network for receiving the panic alarm indication and the GPS information and for displaying the panic alarm indication and a location to a second user.

In accordance with another aspect of the invention, a method for configuring an asset tracking device is provided that includes the steps of: accessing a server from a client; providing a serial number from the client to the server; the serial number uniquely associated with the asset tracking device; interrogating the server based on the serial number; transmitting configuration information from the server to the client in response to the step of interrogating; displaying the configuration information at the client so that a user can review and selectively modify the configuration information; modifying the configuration information at the client to produce modified configuration information; the modified configuration information representing changes to the configuration of the asset tracking device; transmitting the modified information from the client to the server, analyzing the modified configuration information at the server to produce processed configuration information and storing the processed configuration information in a database associated with the server; and, transmitting the processed configuration information from the server to the asset tracking device, thereby configuring the asset tracking device.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the invention may best be understood by referring to the following description and accompanying drawings in which:

FIG. 1 is a block diagram illustrating a general telematics system in accordance with the prior art;

FIG. 2 is a flow diagram illustrating the TDOA process in accordance with the prior art;

FIG. 3 is a block diagram of an asset tracking system (“ATS”) in accordance with an embodiment of the invention;

FIG. 4( a) is a top view illustrating a tracking device in accordance with an embodiment of the invention;

FIG. 4( b) is an end view of the tracking device of FIG. 4( a);

FIG. 5 is an exemplary web page flow chart in accordance with an embodiment of the invention;

FIG. 6 is an exemplary web page flow chart in accordance with an alternate embodiment of the invention;

FIG. 7 is a flow chart illustrating an exemplary asset tracking device method in accordance with an embodiment of the invention; and,

FIG. 8 is a flow chart illustrating an exemplary bridge server method in accordance with an embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the description and drawings, like numerals refer to like structures or and/or processes.

System. Referring to FIG. 3, there is shown a block diagram of an asset tracking system (“ATS”) 300 in accordance with an embodiment of the invention. The ATS 300 allows an asset tracking service provider to provide asset tracking related services to customers. The ATS 300 includes the following: a tracking device 310 that is installed in a customer's vehicle or asset that is to be tracked; a GPS including satellite transmitters 320 for providing GPS signals to the tracking device 310 to facilitate positioning; a cellular telephone network 330 including antennae 331 for communicating with the tracking device 310; virtual carrier servers 350 for providing virtual carrier services (e.g. Aeris or Cellemetry) for communicating with the cellular telephone network 330 over a network 351 using, for example, common channel signaling system number seven (“SS7”); and, ATS servers 360 for providing ATS applications (see below) to customers, for communicating with the tracking device 310 via the virtual carrier servers 350 and cellular telephone network 330 through a network 361, and for supporting an ATS call center 370 over the Internet 371. The network 361 may also be the Internet 371. Typically, the ATS call center 370 operates 24 hours per day, 365 days per year. The ATS call center 370 includes a service provider terminal 372 operated by asset tracking service provider staff. Customers may communicate with asset tracking service provider staff via telephone (i.e. landline or cellular) or through the Internet 371 using a customer terminal 380. Customers and asset tracking service provider staff may access ATS applications locally through the tracking device 310 and/or remotely using the Internet 371 and their respective terminals 380, 372.

The ATS servers 360 may include bridge servers, database servers, alarm servers, and web servers for supporting Internet 371 access. The ATS servers 360, asset tracking service provider terminal 372, customer terminal 380, and tracking device 310 may include input devices, central processing units or CPUs, memory, and displays. The input devices include keyboards, mice, trackballs or similar devices. The CPUs may include dedicated coprocessors and memory devices. The memory may include RAM, ROM, databases, or disk devices. And, the displays may include a computer or LCD screen. The ATS 300 has stored therein data representing sequences of instructions which when executed cause the method described heroin to be performed. Of course, the ATS 300 may contain additional software and hardware a description of which is not necessary for understanding the invention.

Tracking Devices. Referring to FIGS. 4( a) and 4(b), there are shown top and end views, respectively, illustrating a tracking device 310 in accordance with an embodiment of the invention. The tracking device 310 includes a small plastic or metal casing 410 for housing internal modules (see below); a cellular antenna 420; a connector 430 for a GPS antenna (not shown); a connector 440 for a diagnostic device and for connecting other peripheral devices (not shown); and, a connector for a power cable 450 for connecting the tracking device to the power supply of the asset (e.g. vehicle) to be protected. In another embodiment, both the cellular antenna 420 and GPS antenna (not shown) may be placed inside the casing 410. The tracking device is designed to minimize size and maximize durability.

Internally, the tracking device 310 includes; a GPS receiver module connected to a GPS antenna (not shown) through a connector 430 to receive GPS signals from GPS satellite transmitters 320 to allow for the determination of positioning coordinates of the tracking device 310; a cellular modem to communicate with the tracking service provider's servers 360 through the cellular network 330 provided by a virtual carrier; and, a microcontroller which includes software for managing device modules and associated circuitry (i.e. GPS receiver, cellular modem, power requirements, alarms, motion detector, and reporting schedules), along with an Internet interface for configuring the tracking device 310 and for communicating with it. Referring to FIG. 7, there is shown a flow chart illustrating an exemplary asset tracking device method in accordance with an embodiment of the invention.

The tracking device 310 is generally connected to the tracked asset's power supply via a power cable connector 450. However, the tracking device 310 also has an internal backup power supply (not shown) to ensure continued operation even after the external power supply has been disconnected. Sophisticated motion detection and other advanced power saving techniques ensure that the tracking service provider can communicate with the tracking device 310 for a period of time even if the main battery of the protected asset has been disconnected. The backup power supply is typically a rechargeable, internal backup battery that is recharged whenever an external 12/24 volt power supply is connected to the tracking device 310.

A diagnostic device (not shown) may be connected to the tracking device 310 via the diagnostic device connector 440 which is typically a DB-9 connector. The diagnostic device typically includes a LCD display on which key parameters are displayed allowing a user to determine if the GPS receiver module, the cellular modem, and the microcontroller are operating properly. The connector 440 may also be used to connect other peripheral devices to the tracking device 310 including a panic alarm device and an hours meter device (see below).

The tracking device 310 is small, easily hidden in an asset, and communicates with the asset tracking service provider's call center 370 through a virtual carrier network 330, 331, 351, 350. This communication platform is advantageous as it offers a robust means of communication over a network that today provides the most ubiquitous cellular coverage in North America. Other communication platforms may also be used including digital cellular networks. To ensure privacy, communications with the tracking device 310 for configuring device functions or for locating and tracking are conducted through either the tracking service provider's call center 370 or through a private web portal managed by the tracking service provider.

The tracking device 310 is capable of accurately determining the location of any asset and relaying this information to the owners of the asset (i.e. customers) or to the appropriate authorities. In most cases, the location of the asset can be determined to within a matter of meters. In addition, the tracking device 310 can be configured to automatically and immediately alert the owner, or the proper authorities, if the device leaves a pre-determined area, if the power supply voltage of the asset (e.g. vehicle) drops below a predetermined value, if the tracking device 310 is disconnected from the external power supply of the asset, or if the GPS antenna connection 430 to the device has been either severed or shorted. Advantageously, these features make the tracking device an effective theft detection and asset recovery tool.

The tracking device 310 has two sensitive motion sensors that are configured to report if motion occurs. The two motion sensors are used for power management and alarm detection purposes

The two motion sensors are configured orthogonal to one another in order to sense motion more easily. In addition, “sensitivity” settings (i.e. low, medium, high) are used to adjust the voltage threshold detection level to activate the motion sensors. Moreover, a “debounce” function is included that prevents the motions sensors from activating on spurious or transient conditions such as wind or vibration type motions. Typically, this debounce function is set at 5 seconds. That is, there must be continuous motion for a minimum of 5 seconds in order for the motion detectors to activate. Thus, these “damping” settings are configured such that a vehicle being moved by a gust of wind will not trigger the motion sensor but genuine “motion” must be established by a certain number of “movements” that happen over a period of a few seconds. This definition of motion enables several power saving features. First, if no motion is sensed for 5 minutes, whether or not the vehicle is being operated or is just parked, the GPS module is powered down to save power. This is possible since when the GPS module is powered up and the tracking device 310 is in motion, the GPS module has to constantly write new location fixes to the microcontroller. However, if there is no motion, the last location fix stored in the microcontroller will still be accurate and so the GPS module may be powered down.

Second, a power save delay parameter can be set during configuration of the tracking device 310 which specifies how long after motion ceases until the Power Save Mode is entered. This parameter can be changed from a default setting of 0 hours to up to 999 hours. After the selected power save delay time has elapsed, the tracking device 310 will enter the Power Save Mode, which is essentially a “deep sleep” mode that uses minimal power. (Again, if the value of zero is selected, then the tracking device will enter the Power Save Mode 5 minutes after motion has stopped, for example.) When the tracking device 310 is in Power Save Mode, it cannot be contacted or interrogated. When motion is sensed, the tracking device 310 immediately awakens and determines if it has experienced any conditions that should be reported as an alarm. The tracking device 310 remains powered up until the expiry of the power save delay time stored in its memory. A user can set the power save delay time to reflect the external battery capacity of the vehicle or asset in which the tracking device 310 is installed. For example, if the vehicle or asset has a small battery that may be depleted quickly, then the user may set the power save delay time to one hour. With this setting, the tracking device will “go to sleep” is there is no motion for one hour. If the external battery is more robust, then the user may wish to set the power save delay time to 999 hours so that the tracking device 310 will stay powered up and remain available for interrogation for essentially 1000 hours from the last time motion was sensed.

If the tracking device 310 has gone into the Power Save Mode, only the cellular module (not the GPS module) awakens for a defined period every 24 hours. During that defined period, the tracking device 310 “listens” to the cellular network 330 for a “page” so it can be sent a locate command to determine its position or so it can receive configuration changes from the user. The servers 360 control and change the time for this daily reporting. Daily reporting is typically conducted in the early morning when network traffic is at its lowest point.

As mentioned, the tracking device 310 has an internal power supply, typically a battery. As soon as the external power supply is lost, an alarm message is received by the servers 360 and call center 370 indicating that the situation should be investigated. Therefore, the internal battery needs to last long enough to get a fix on where the tracking device 310 is located. The customer or call center staff may then choose to dispatch the police to retrieve the vehicle or asset. Typically, the tracking device 310 draws little power from the vehicle battery. The tracking device's internal batteries are selected to minimize the overall size of the tracking device 310 yet meet the necessary power requirements. The internal batteries are maintained at a full charge as long as the external power supply is available. By minimizing overall size of the tracking device 310, the device may be installed in smaller sized assets including computers and pumps. In fact, small size enables the tracking device 310 to be used for monitoring the location of children, pets. Alzheimer patients, or criminals. With greater size reductions, implanting tracking devices in animals or people may be possible.

The ATS 300 includes a “Panic Alarm” function that is initiated by a contact closure monitored by the tracking device 310. The contact closure may be between two pins on the diagnostic device connector 440. The Panic Alarm function may also be used in conjunction with an additional panic alarm device. The panic alarm device may be installed in a vehicle along with the tracking device 310. The Panic Alarm function could be used, for example, in a taxi. Here, the panic alarm could be generated by a secret, under seat switch that is activated by the driver to summon help if the driver is attacked or the taxi is hi-jacked.

In addition, the panic alarm device may act as the “receiver end” for a pendant type “Medical alert” transmitter device or similar devices typically used by seniors to summon help in the event of a fall or other emergency. These pendant devices typically include a small radio frequency (RF) transmitter. The receiver component of these systems picks up the signal transmitted from the pendant device and initiates an auto-dialer that calls an alarm-monitoring center to report the emergency.

According to one embodiment, the RF receiver is modified for installation in a vehicle where it may be powered by the vehicle's power supply. If a user pushes the panic alarm button on the pendant device, a signal is sent from the pendant to the receiver contained in the panic alarm device. The receiver will be able to receive signals transmitted by the pendant device within a predetermined radius from the vehicle. In other words, the transmitter in the pendant device has a known transmission range. Upon receipt of this signal, the panic alarm device closes a contact. This contact closure, and hence the presence of a panic alarm, is monitored by the tracking device 310. The panic alarm is then relayed by the tracking device 310 to the call center 370 where it is automatically forwarded, along with the location of the vehicle, to the appropriate authorities. In this way, the tracking device 310 acts as a security “base station” for the user. While the location information identifies the precise location of this security “base station,” knowing that the user of the panic alarm device is within the predetermined RF reception area for signals transmitted by the pendant device provides the authorities with the approximate location of the user.

ATS Servers. The ATS 300 includes several servers 360 and a call center 370 for the management of tracking devices 310. The servers 360 and call center 370 constitute a tracking device management system that stores data and communicates with tracking devices 310 through the cellular phone network 330 and via a web interface 371. The servers 360 include a Virtual Carrier Bridge Server, a Database Server, an Alarm Server, and a Web Server. Thus, the tracking device management system includes the following components:

-   -   1. Virtual Carrier Bridge Server: This server processes and         formats all of the commands and data to be sent via a TCP/IP         connection 361 to the virtual carrier servers 350 at virtual         carrier operation centers where they can be relayed to tracking         devices 310 over the AMPS cellular phone network 330 in North         America, Mexico, and parts of South America. Similarly, this         server receives and processes data and reports that have been         received from tracking devices 310 at a virtual carrier's         operation centre and relayed to the call center 370 via a TCP/IP         connection. Referring to FIG. 8, there is shown a flow chart         illustrating an exemplary bridge server method in accordance         with an embodiment of the invention.     -   2. Database Server: This server maintains a database for storing         all relevant data pertaining to tracking devices 310, customers,         users, alarms and reports, billing information, and the like.     -   3. Alarm Server: All alarms and reports that arrive at the call         center 370 (i.e. after being relayed from a tracking device 310         through the AMPS cellular network 330 and the virtual carrier's         servers 350) are processed by the alarm server and, as required,         are written to the database. Parameters chosen by the customer         and stored in the database determine who should be automatically         advised of the occurrence of the alarm at the particular day and         time that the alarm has occurred. For example, a Power Restored         Alarm (see below) is not routinely passed on to the customer but         is used by the tracking service provider to monitor the status         of deployed tracking devices. For example, the receipt of a         Power Restored Alarm could be of assistance in locating a         missing asset that had not been recovered. If a vehicle were         stolen from a location where there was no cellular service (e.g.         a remote mountainous area), and the vehicle's battery had been         disconnected for a period of time so that even the internal         back-up battery in the tracking device had depleted, then if the         vehicle was ever moved into an area with cellular coverage, and         the vehicle battery was re-connected (i.e. before the tracking         device was discovered or destroyed), then this alarm message         would signal to the call center 370 that the vehicle had         resurfaced in an area where a Locate command could now be         performed.     -   4. Call Centre: The tracking service provider's call center 370         is typically staffed 24 hours per day to monitor all components         of the tracking device management system. In addition, customers         that may not have access to the Internet 371 may call a toll         free number to have call center staff manage their account or to         make inquiries about alarms that they have received notification         of via the automated alarm notification system.     -   5. Web Server: The tracking service provider's web server         provides the means for customers to communicate with and control         their tracking devices 310. The web server maintains a web         portal or tracking device management web interface which is         described below.

Functions. For effective theft detection and asset location, the tracking devices 310 and/or ATS 300 include the following functions:

-   -   1. Motion Detection: As described above, the GPS receiver and         cellular modem turn on immediately upon detection of movement         and the GPS module proceeds to obtain a location.     -   2. Virtual Fence Violation Alarm: The user is able to define a         virtual fence (“vFence”) for the asset to be protected (e.g.         between 100 meters and 100 kilometers). If the asset moves         beyond this user-defined fence, a vFence violation alarm is         reported to the call center 370. As will be described below,         settings for the vFence alarm may be made over the Internet 371.     -   3. Locate: The user is able to locate the protected asset using         the mapping services resident on, or accessed from, the tracking         service provider's servers 360. As will be described below,         settings for the locate function may be made over the Internet         371.     -   4. Low Power Alarm: If external power drops below 80% of its         nominal input level for longer than three minutes, for example,         then an alarm is sent to the call center 370.     -   5. Power Cut Alarm: If external power is cut for longer then 15         seconds, for example, then an alarm is sent to the call center         370.     -   6. Restored Power Alarm: When power is restored after being cut,         the tracking device 310 will transmit a power restore message to         the servers 360.     -   7. Panic Alarm: For personal security, a button on a personal         panic device, the receiver of which is co-located with and         connected to the appropriate pins of the DB-9 connector 440 on         the tracking device 310, may be used to send a panic alarm to         the servers 360 and call center 370 via the tracking device 310.     -   8. Hours Meter: The hours meter function emulates a physical         “hours meter” that is typically used to record the number of         hours that an engine, or similar component, has operated. This         function is used by connecting a voltage source, such as the         “ignition on” voltage that indicates that an engine is         operating, to designated pins of the DB-9 connector 440 of the         tracking device 310. A counter in the tracking device's 310         microcontroller commences to record time whenever such a voltage         source is present. Thus, the counter functions as an hours meter         and records the number of hours the associated engine, or other         component, has been in operation. The user is able to define a         time interval after which the tracking device 310 will send a         message to the servers 360 and database that includes the         current hours meter reading from the counter. The servers 360         can be configured to automatically forward an e-mail message to         the customer reporting the current hours meter reading and         indicating that the hours meter has reached a configured time         increment.     -   9. Power Save Mode: In order to reduce power consumption, the         tracking device 310 can be programmed to “sleep” and will         consume minimal power if no movement has occurred for a user         preset time from 0 hour to 999 hours, for example, and “awaken”         when motion is detected by the microcontroller. If the preset         time is set to zero, then the tracking device 310 will typically         enter the “Power Save Mode” after 5 minutes.     -   10. Daily Network Listening: Regardless of whether “awake” or         “asleep”, the tracking device 310 turns on its cellular modem at         a predefined time to be available for communications.     -   11. Monthly Heartbeat: Once a month, for example, the tracking         device 310 calls the servers 360 and reports its current         position.

Tracking Service Provider Specific Commands. The following commands may be sent to the tracking device 310 by the tracking service provider via the service provider terminal 372 and/or servers 360:

-   -   1. Deactivate Device: This command can be sent by the tracking         service provider to deactivate a device if a customer's account         is delinquent or some such reason. Upon receipt of this command,         the tracking device 310 no longer responds to any customer         instructions received through the web interface. But, provided         that the tracking device 310 is still connected to an external         power supply (or if the internal backup battery is still         operational), the tracking device 310 continues to monitor the         cellular network 330 and accepts an “Activate Device” command         (see below) sent by the tracking service provider to reactivate         the tracing device 310 enabling it to accept subsequent tracking         service provider and/or customer commands.     -   2. Activate Device: This command can be sent by the tracking         service provider to reactivate a tracking device 310 that has         previously been sent a “Deactivate Device” (see above) command.         This command may be sent in order to reactivate a customer's         tracking device 310 after a delinquent account has been brought         current.     -   3. Change Report Day: Each tracking device 310 is pre-programmed         at the factory to send a “heartbeat” report to the servers 360         on a particular day of each month. This command can be used to         cause a tracking device 310 to send the heartbeat report on a         different day of the month.     -   4. Change Report Time: Each tracking device is pre-programmed at         the factory to send the heartbeat report to the servers 360 at a         particular time, on the selected “Report Day” of each month.         This command can be used to cause a tracking device 310 to send         the heartbeat report at a different time on the selected Report         Day.     -   5. Wakeup and Locate: Each tracking device 310 is pre-programmed         at the factory so that even if the device is in the Power Save         Mode, the unit will be fully “awake” and ready to accept         commands for one hour out of every 24 hours. During this one         hour awake period, the tracking service provider can send any         tracking device 310 a locate diagnostic command which causes the         tracking device 310 to attempt to obtain a GPS measurement for         four minutes and forward the location data to the servers 360,         thereby confirming that all GPS and communication functions are         working properly.     -   6. Track Unit For “x” Minutes: Sending this command (accompanied         by a certain number of minutes) to a tracking device 310 causes         the device to report to the servers 360 every fifteen seconds.         The tracking device 310 alternately reports either a geographic         position or the speed and heading data for the number of minutes         that has been specified in order to permit “live” tracking of an         asset in motion.

Tracking Service Provider and Customer Commands. The following commands may be sent by to the tracking device 310 by either the tracking service provider or customer via the service provider terminal 372 or customer terminal 380, respectively, and/or servers 360:

-   -   1. Power Save Delay: As described above, in order to conserve         the power of the external battery providing power (e.g. at 12/24         volts) to the tracking device 310, a motion detector causes the         device to power down. Therefore, the tracking device 310 does         not monitor the cellular network 330 and cannot accept incoming         calls, except for the one hour (or other time determined by the         tracking service provider) per day when the device is programmed         to wake up and monitor the network 330. With this command         customers can set the number of hours after any motion stops         before the unit will go into this Power Save Mode. The default         value for this parameter for tracking devices leaving the         factory is 1 hour. This command allows customers to manage the         power consumption of the tracking device 310 and appropriately         match this consumption to the capacity and circumstances of the         external power supply.     -   2. Activate Power Save Report Mode: This command will cause the         tracking device 310 to report its location to the call center         370 on every occasion just before the tracking device 310 goes         into the Power Save Mode. This command has fleet management         applications. Such a series of reports may provide a customer         with a list of locations where the tracking device 310 had         ceased to move for the period of time selected by the “Power         Save Delay” command. This could, for example, provide a record         or log for the customer of any stops of greater than 5 minutes         or greater than 1 hour, etc. This function ensures that, at all         times, the tracking service provider has an accurate location         for the tracking device 310 (if the unit is in Power Save Mode)         or can obtain an accurate location (if the tracking device 310         is in a vehicle that is moving).     -   3. Deactivate Power Save Report Mode: If the customer has         activated the “Power Save Report Mode” in a tracking device 310,         it can be deactivated with this command.     -   4. Activate Power Alarms: If this command is sent to a tracking         device 310, the device will provide the servers 360 with a         message indicating that one of the “Power Alarm” conditions (as         described below) has occurred. Configuration settings chosen by         the customer specify who should be immediately and automatically         contacted by the tracking service provider in this event. When a         tracking device 310 is shipped from the factory the default         setting for the Power Alarms is “OFF.”     -   5. Deactivate Power Alarms: If the Power Alarms in a tracking         device 310 have been activated, sending this command instructs         the device to refrain from contacting the servers 360 when a         Power Alarm condition occurs.     -   6. Set vFence Radius: If this command is sent to a tracking         device 310, the device will establish (by mathematical         calculation) a virtual fence (“vFence”) around itself, typically         circular in shape having a center at the position where the         tracking device was located when the “Turn vFence On” command         (see below) was sent, and having a radius ranging from 100         meters to 100 kilometers. If the tracking device 310 moves         outside of this virtual fence, then the device will send a         message to the servers 360 indicating that the device has left         the “permitted area” as defined by the “Set vFence Radius”         command.     -   7. Turn vFence On: If this command is sent to a tracking device         310, the center of the permitted area (as defined by the Set         vFence Radius command) is reset to the current location of the         tracking device 310. From then on, the tracking device 310 will         send a message to the servers 360 if the device moves outside of         the permitted area. Before sending this alarm message, the         vFence function is turned off. After this alarm has been         received, the customer may choose to reactivate (and re-center)         the vFence or to continue to monitor the location of the asset.         When a tracking device 310 is shipped from the factory the         default position for the vFence is “OFF.”     -   8. Turn vFence Off. If the vFence function has been activated,         sending this command deactivates the vFence function.     -   9. Locate: Sending this command causes a tracking device 310 to         report its location to the call center 370 in one of four         possible ways depending on the conditions existing at the time         the command was sent:         -   a) If the tracking device 310 has not moved for a period             greater than the power save delay time that has been set in             the device, the customer would be advised by the servers 360             via the customer terminal 380 that the device is in Power             Save Mode and the most recent location data from the             servers' database would be provided to the customer. The             customer would also be given the option of having the system             300 interrogate the tracking device 310 during the next             daily time period when the device will be “awake” and             “listening” to the cellular network 330, if the device has             not already reported a new location to the servers 360 by             that time. A message also advises the customer of the time             when updated location data will be available. If the Power             Save Report Mode is enabled, the reported position will be             the current position of the unit.         -   b) If the tracking device 310 is not in Power Save Report             Mode but the device has not moved for 5 minutes, then the             most recent location stored in the tracking device's memory             will be reported, which will be, by definition, the current             location of the device.         -   c) If the tracking device 310 is not in Power Save Report             Mode and it has moved within the last 5 minutes, but is             currently not moving, the current location will be reported.         -   d) If the tracking device 310 is not in Power Save Report             Mode and it is in motion, then the current location and fact             that the device is in motion will be reported.     -   10. Power Down Device: This command can be sent to a tracking         device 310 to shut the device down entirely so that it is not         even capable of monitoring the cellular phone network 330 or         registering on the network. Typically, tracking devices are         shipped from the factory in the “Power Down Mode.” Once having         entered this mode, the tracking device 310 can only be turned on         by connecting (or removing and re-connecting) an external 12/24         volt power supply to the device.     -   11. Hours Meter Interval: This command can be sent to a tracking         device 310 to cause it to send a report to the servers 360 when         a voltage source (e.g. ignition voltage) has been present on         designated pins of the DB-9 connector 440 for a selected         increment of time, referred to as the “hours meter interval”.         Typically, this interval may range from 10 hours to 9,999 hours.         Tracking devices are shipped from the factory with no interval         set so that automatic reports are not generated until the         customer has configured the tracking device with a desired         interval. The user is given the option of entering into the         database an “offset” number that can be used to synchronize the         hours meter reading reported by the tracking device 310 with a         physical, preinstalled, external hours meter. This offset number         allows the readings from the hours meter function to be made         consistent with the readings from the physical hours meter.     -   12. Hours Meter Report: This command can be sent to a tracking         device 310 at anytime causing the device to report its current         hour meter reading.

Alarms and Reports. The following alarms and reports may be generated by the asset tracking system 300:

-   -   1. External Power Low Warning: If the Power Alarms function (see         above) has been activated in a tracking device 310, then the         device will send an alarm to the servers 360 indicating that the         external power supply voltage (e.g. 12/24 volts) has dropped         below 80% of its normal value.     -   2. External Power Lost Alarm: If the Power Alarms function has         been activated in the tracking device 310, and the external         power supply (e.g. 12/24 volts) is removed for 15 seconds, then         the device will send an alarm to the servers 360 indicating that         the external power supply has been lost. The sewers 360 will         send a confirming message to the tracking device 310 indicating         that the alarm message has been received. If the tracking device         310 does not receive a confirmation of the receipt of the alarm         message within 5 minutes, then the device will attempt to resend         the alarm message up to 5 times.     -   3. External Power Restored: If the Power Alarms function has         been activated in the tracking device 310, then the device will         send an alarm to the servers 360 indicating that the external         power supply (e.g. 12/24 volts) has been restored.     -   4. Panic Alarm: As described above, some tracking devices 310         may be configured to make use of a Panic Alarm function that is         typically triggered by a contact closure between two pins on the         multi-pin (DB-9) tracking device connector 440. If a contact         closure is detected by the tracking device 310, then the device         will send a Panic Alarm report indicating that immediate         assistance is requested at the reported location of the device.         The Panic Alarm message sent by the tracking device 310 contains         current location information for the device. The servers 360         will send a confirming message to the tracking device 310         indicating that the alarm message has been received. If the         tracking device 310 does not receive a confirmation of the         receipt of the alarm message within 5 minutes, then the device         will attempt to re-send the alarm message up to 5 times. If no         receipt is received, then it will attempt the same sequence         every 24 hours.     -   5. vFence Violation Alarm: If the vFence function has been         activated in a tracking device 310, and if the tracing device         310 moves to a location that is outside of the permitted area         (defined by the vFence radius), then the device will first         deactivate the vFence and send an alarm to the servers 360         indicating that the device has travelled a distance greater than         the allowed vFence radius from the point where the device was         located when the vFence was activated. The servers 360 will send         a confirming message to the tracking device 310 indicating that         the alarm message has been received. If the device does not         receive a confirmation of the receipt of the alarm message         within 5 minutes, then the device will attempt to re-send the         alarm message up to 5 times. If no receipt is received, then it         will attempt the same sequence every 24 hours.     -   6. Power Save Mode Report: If the customer has chosen to have         the tracking device 310 report its location prior to going into         Power Save Mode, then this report provides the location of each         such occurrence. This location is stored in the servers 360 for         subsequent customer reports and/or use.     -   7. Heartbeat: As mentioned above, this report is a monthly         confirmation (i.e. at the “Report Time” on the “Report Day”)         that the tracking device 310 is functioning properly. Typically,         this report is sent to the servers 360 only.     -   8. Antenna Sense Alarm: This report is sent if the antenna for         the GPS module has been tampered with or is not functioning         properly.     -   9. Hours Meter Report: If the tracking device 310 has been         configured with an “hours meter interval”, then this report will         be sent by the device to the serves 360 each time that the         counter in the device's microcontroller indicates that ignition         voltage has been present on the appropriate pin on the DB-9         connector 440 for the specified period of time.

Alarm Processing. The alarm server receives all tracking device alarms and reports (e.g. Low Power, Power Cut, vFence Violation, Antenna Sense, or Power Save Location Report) that are generated. The alarm server writes the time stamped alarm/report to a database and issues all of the notifications the customer has chosen in the customer configuration portion of the database which correspond to the customer's instructions for processing alarms. A text, voice, fax, email, pager, or SMS message advises the customer of the nature and time of the alarm and requests the customer to either: (a) log on to the tracking service provider's website to further investigate the nature of the alarm; or, (b) call the tracking service provider's call center 370 at a toll free number to provide instructions.

The alarm server generates an alarm at the call centre 370 and if there has been no response (within, for example, 10 minutes) from any of the parties that have been automatically alerted by the alarm server of the alarm, then call center staff will take action. Following the tracking service provider's procedure manual, call center staff may contact the customer at a specific telephone number. Alternately, if it can be seen from interrogation of the tracking device 310 that an asset that should not be on the move, is actually moving, the tracking service provider will have a procedure in place for contacting the police. The police will be advised that the tracking service provider has identified unauthorized activity pertaining to the asset but that so far the owner has not been contacted. If the customer does not have access to a terminal 380, he may choose to call the 1-800 number in response to an alarm and communicate directly with call center staff who may use the web interface on behalf of the customer. Call centre staff will provide the customer with an “Incident Report Number” and instructions advising the customer contact the police to make a stolen property report and to provide the police with the tracking service provider's 1-800 number and other relevant information.

Tracking Device Management Web Interface. Referring to FIG. 5, there is shown an exemplary web page flow chart in accordance with an embodiment of the invention. The web page flow chart illustrates the hierarchy of web pages 500 that the ATS 300 may present to users through the web server and the tracking service provider's website. Users (e.g. customers, police officers, asset tracking service provider staff, etc.) may view series of pages in several languages including English 505, Spanish 590, and French 595. In each language, five main web page series are available to users under the following pages: “Customer Login” 510, “Police Login” 570, “Open Now Account” 575, “Contact Us” (i.e. the tracking service provider) 580, and “Privacy Statement” 585.

To manage tracking devices, customers would visit the website home page established by the tracking service provider using their terminals 380. Customers would typically login to the ATS 300 using the Customer Login 505 series of pages. These pages may also be used by tracking service provider staff using their terminals 372. In particular, tracking service staff would routinely use the related “Tracking Service Provider Functions” 565 series of pages. When a login page is completed and submitted by the customer or other user, the ATS 300 checks to determine that the customer number, username, and password are valid. It also checks an access level assigned to the user for determining what screens to display to the user and what functions the user is authorized to perform with respect to tracking devices registered to the user. The access level field may be a two character field with the letters A through J being assigned for various access levels for customers and with the letters K through ZZ being reserved for tracking service provider staff. Typically, the web page series listed under Customer Login 505 in FIG. 5 would be presented to customers having a high access level. Customers having lower access levels would not be presented with buttons or messages concerning functions that are not permitted at that lower access level. Access levels may include the following:

-   -   A: Customer Administrator. Can perform any permitted customer         function.     -   B: Can review database of all tracking devices in permitted         groups that are registered to the customer. Can locate any         tracking device registered to the customer. Can change their own         username and password.     -   C: Includes level B functions. Can alter alarm settings of         tracking devices in permitted groups that are registered to the         customer.     -   D: Includes level C functions. Can alter customer asset data         fields for devices in permitted groups that are registered to         the customer.     -   E: Includes level D functions. Can create and edit customer         groups. Can add or delete users with access to the customer's         tracking devices.

Immediately after a successful login by a customer, the ATS 300 checks the database to determine if any alarms have been reported by any of the tracking devices registered to the customer. Before the customer is allowed to proceed to perform other tasks, the customer is presented with any such alarms by the “Manage Occurred Alarms” 515 page. The customer is required to either clear the alarms (e.g. alarms caused by an event or circumstance known to the customer) or confirm to the tracking service provider that the asset associated with the tracking device is to be reported to the authorities as having been stolen. If the customer determines that the alarm is the result of a theft, then the customer will be presented with the “Report A Theft” 520 page as described below. In the case of External Power alarms and vFence Violation Alarms, the Locate function is not available to the user for a period of time determined by the tracking service provider. Following the receipt of either of these two types of alarms, and for this predetermined period of time, the Locate and tracking functions are only available to the tracking service provider or to the authorities investigating the reported theft.

After reviewing any unprocessed alarms 515 that have occurred, the customer is presented with the following option pages: “Report A Theft” 520, “Locate Tracking Device” 525, “Last Known Location” 530, “Tracking Device Settings” 535, “Customer/User Settings” 540, “Add A New Tracking Device” 545, “Contact Us” 550 (i.e. the tracking service provider), “Privacy Statement” 555 (i.e. of the tracking service provider), “Log Off” 560, and “Tracking Service Provider Functions” 565. The functions initiated upon selection of one of these options by a user are described in the following:

-   -   1. Report A Theft 520: A picklist allows the user to select one         of the tracking devices 310 registered to that customer and         confirm to the tracking service provider that the device is to         be reported stolen. This function is available to a user at         anytime so that in the case where the user has not had the         vFence activated for any reason, but they have visually         determined that their vehicle is missing, the tracking service         provider can respond with the same tracking and locating         services that would be used if a theft had been detected by the         arrival of a vFence or Power Cut alarm. As soon as the user         confirms that the asset is to be reported stolen, the ATS 300         responds by providing the user with an “Incident Report Number”         that is to be provided to the police or other investigating         authority. The user is also provided with a toll free number         that they are instructed to give to the police. When the police         contact the tracking service provider and provide the Incident         Report Number, the police are given a temporary password that         will allow them to perform locating and tracking functions over         the web interface to assist them in locating and recovering the         asset. Alternatively, tracking service provider staff at the         call centre 370 can provide locating and tracking assistance to         the police via telephone.     -   2. Locate A Tracking Device 525: Clicking on this button brings         up a screen that allows the user to select a tracking device 310         from a picklist of devices that the user is authorized to         access. This page may also include a search feature to assist         users who have a large number of tracking devices. Once the         desired tracking device has been highlighted in the picklist, a         locate button on the page can then be clicked. The user then         confirms that a locating operation is desired and that the user         accepts the charge presented on the page, the charge being         associated with the user in a billing database. The ATS 300 will         then attempt to communicate with the selected tracking device         310 to obtain current location information If this attempt is         not successful, then the ATS 300 will access the last known         location (and related time) from the database and will display a         map to the user with a message stating words to the following         effect: “The current location is not available at this time. The         tracking device is likely in Power Save Mode because it is not         currently in motion or may be outside of cellular coverage.” The         user will then be given the option of having the ATS 300 obtain         an updated location from the tracking device 310, even if it         continues to remain stationary, during the next daily “window”         when the device awakens from the Power Save Mode. If the user         selects this option and accepts the charge for this service,         then the user will be advised when they can expect updated         location data to be available. If the tracking device 310 is not         in Power Save Mode, and is activated and available, the ATS 300         display a map (scaled to show an area of approximately 5 square         kilometers) to the user. The map can be zoomed out from this         point for the user to confirm the area, region, or         state/province, etc., that is being displayed or zoom in for         increased detail with respect to the location of the tracing         device 310 and asset.     -   3. Last Known Location 530: Ibis function may be used to query         the ATS 300 database for the last reported location of the         tracking device 310. The system 300 will respond by presenting a         map to the user illustrating the most recent coordinates that         have been reported and stored in the database along with the         date and time associated with those coordinates. The user is         given the option of attempting to locate the tracking device 310         or of having the device report its location during the next         scheduled daily listening “window” (i.e. when the device comes         out of the Power Save Mode, monitors the cellular network 330,         and responds to commands). If the user selects this second         option, and accepts the charge for this service, then the user         will be advised as to when updated location data will be         available.     -   4. Tracking Device Settings 535: This series of screens allows         the user to alter the vFence, Power Alarm, Power Save Delay,         Power Save Report Mode, Hours Meter, and Power Down functions.         The system provides information to the user on the current         settings and if the user accepts any charges associated with         altering any of the tracking device settings, the changes are         sent to the device and are written to the database when the unit         responds confirming that the changes have been made. If the         tracking device 310 is currently in the Power Save Mode (e.g. it         is not in motion), then the user can choose to have the new         settings sent to the device during the next daily window (i.e.         when the device carries out of Power Save Mode, monitors the         cellular network 330, and responds to commands). If the user         selects this option, and accepts the charge for this service,         then the user will be advised as to when the revised settings         will available.

The Tracking Device Settings 535 series of pages also allows the user to perform functions such as moving a tracking device. This function requires the user to enter new information pertaining to the protected asset for storage in the database. When new information is entered, the ATS 300 temporarily suspends automated notification related functions. Once the user has completed these pages and has accepted the charge for moving the tracking device, automated notification functions are suspended until the ATS 300 receives a Power Restored Alarm. Receipt of this alarm indicates that the tracking device has been disconnected from the power supply of the current asset and reconnected to the power supply of the new asset. In addition, the user may edit the description of the protected asset (e.g. change the colour description) or assign the tracking device to a “Group” that the user has established. Groups allow the user to alter the settings of a number of tracking devices (e.g. turning the vFence or Power Alarms on or off, resetting the vFence radius, etc.) without having to select each tracking device individually to make the necessary change. If tracking device settings for Groups are altered using the pages available under the Customer/User Settings 540 page (see below), then the total cost for initiating that change for all the devices assigned to that Group is calculated and the user must confirm that they accept the resulting charge before the Group device settings are altered.

In addition, the Tracking Device Settings 535 series of pages allows the user to send a Power Down command to a tracking device 310. This command returns the tracking device 310 to its factory settings. It may be used to deactivate a tracking device 310 that is being shipped to a new location or that is being temporarily “retired” due to the seasonal nature of the customer's business. After this command has been sent to a tracking device 310 and the external power has been removed from the device, the device is reactivated by the application of an external power source. The tracking device 310 awakens from this mode with its factory settings. As such, the user may need to reconfigure the device's settings.

-   -   5. Customer/User Settings 540: This series of pages allows an         authorized user to perform functions such as changing passwords,         changing customer data (e.g. address, telephone number, etc.),         and setting alarm notifications. By setting alarm notifications,         the customer can establish different periods of the day,         weekends, holidays. etc., when received alarms are to be routed         to specified individuals. The ATS 300 allows the user to provide         a number of telephone, pager, fax, or e-mail numbers and         addresses that can be selected as the appropriate means of         contacting the individuals specified for notification in the         event of an alarm. For a specific customer, users with higher         levels of authorization are able to manage the privileges of         other users. As mentioned above, pages are provided that allow         users to establish and manage Groups to which individual         tracking devices may be assigned. Users may then alter the         settings of a number of tracking devices belonging to a Group         without having to individually select and change settings for         each device. In addition, pages are provided that allow users to         review and process any received alarms, review all location         reports stored in the database for a tracking device, and review         that status of charges made to a customer account as a result of         transactions that have been accepted by an authorized user.     -   6. Add a New Tracking Device 545: This series of pages allows a         user to add a new tracking device 310 to a customer profile. The         user is prompted to enter the serial number (“S/N”) of the new         tracking device that is to be added to ATS 300 for the customer.         The ATS 300 checks the database to determine if the submitted         serial number corresponds to a valid tracking device and that it         is not already associated with another customer. If the tracking         device is available, then the user is prompted to fill in the         required information about the asset in which the tracking         device is to be installed. The tracking device is then         associated with the customer profile and the information is         saved in the database.     -   7. Tracking Service Provider Functions 565: A separate and         unique “Customer Number” allows call centre staff (and other         authorized tracking service provider staff) to access the web         pages and data associated with a given customer. Though proper         access level authorization, call centre staff arc allowed to         facilitate customer requests received by telephone and to alter         data on behalf of customers. Typically, customers calling in         their requests to the call centre 370 would be required to         provide some form of “Challenge Word.” The Challenge Word may be         stored in the database and would be required to authorize         charges including additional service charges results from the         direct delivery of services by call center staff. Of course         additional Tracking Service Provider Specific Commands” (see         above) such as Activate and Deactivate Device, Change Report         Day, etc., would also be available to staff with the appropriate         authorization.

In addition to the “Customer Login” 510 series of pages, there are four additional main series of pages as follows:

-   -   Police Login 570: If a user has reported the theft of an asset         protected with a tracking device 310 to police, the user should         advise the police that the tracking service provider can provide         assistance to the police in locating the protected asset. The         user should also provide the police with the toll free number         for contacting the call center 370 and the Incident Report         Number provided by the tracking service provider. Once the         police contact the tracking service provider, call centre staff         can provide locating services (e.g. via the “Locate” command) or         tracking services (e.g. via the “Track Unite for x Minutes”         command) to the police over the telephone. Alternatively a         temporary password can be given to the police by telephone so         that they can log on to the tracking service provider's website,         enter the Incident Report Number, perform locating and tracking         functions, and receive maps and location data directly.     -   2. Open New Account 575: This page allows new customers that         have not yet registered with the tracking service provider to         establish and set up a new account. Users that select this         option will be prompted to fill in all of the required         information to establish an account with the tracking service         provider. Once this process has been completed and the data         written to the database, the new user is asked if they wish to         configure an initial tracking device. If so, the new user is         then prompted fur information required to activate the new         device, as described above. The system 300 supports secure         socket layer (“SSL”) with 128 bit encryption to encrypt data         exchanged between the customer and the servers 360 so that the         customer can confidently and securely provide credit card and         other data to the tracking service provider.     -   3. Contact Us 580: This page provides the user with contact         information for the tracking service provider.     -   4. Privacy Statement 585 This page provides the user with the         tracking service provider's privacy statement.

Referring to FIG. 6, there is shown an exemplary web page flow chart in accordance with an alternate embodiment of the invention.

Data Carrier Product. The sequences of instructions which when executed cause the method described herein to be performed by the asset tracking system 300 of FIG. 3 can be contained in a data carrier product according to an embodiment of the invention. This computer software product can be loaded into and run by the asset tracking system 300 of FIG. 3.

Computer Software Product. The sequences of instructions which when executed cause the method described herein to be performed by the asset tracking system 300 of FIG. 3 can be contained in a computer software product according to an embodiment of the invention. This computer software product can be loaded into and run by the asset tracking system 300 of FIG. 3.

Integrated Circuit Product. The sequences of instructions which when executed cause the method described herein to be performed by the asset tracking system 300 of FIG. 3 can be contained in an integrated circuit product including a coprocessor or memory according to an embodiment of the invention. This integrated circuit product can be installed in the asset tracking system 300 of FIG. 3.

Although preferred embodiments of the invention have been described herein, it will be understood by those skilled in the art that variations may be made thereto without departing from the spirit of the invention or the scope of the appended claims. 

1. A method of configuring a tracking device, wherein the tracking device is comprised of a GPS receiver, a tracking device communication device and a microcontroller, comprising the following steps: (a) accessing a tracking device management system comprising a tracking system server and a database with a terminal through a management system communication interface by undergoing a login procedure; (b) selecting a desired configuration option from a plurality of configuration options provided by the tracking system server; (c) requesting, from the tracking system server, tracking device configuration settings pertaining to the tracking device for the desired configuration option; (d) transmitting the tracking device configuration settings from the database to the terminal; (e) displaying the tracking device configuration settings at the terminal; (f) modifying the tracking device configuration settings at the terminal to produce modified tracking device configuration settings; (g) transmitting the modified tracking device configuration settings from the terminal to the tracking device management system through the management system communication interface; and (h) transmitting a command from the tracking device management system to the tracking device through a tracking device communication link to configure the tracking device to reflect the modified tracking device configuration settings.
 2. The method as claimed in claim 1 wherein the terminal is a service provider terminal.
 3. The method as claimed in claim 1 wherein the terminal is a customer terminal.
 4. The method as claimed in claim 1 wherein the tracking device management system is comprised of a management system communication device and wherein the tracking device communication link is comprised of a telecommunication link between the tracking device communication device and the management system communication device.
 5. The method as claimed in claim 4 wherein the tracking device communication link is comprised of a cellular telephone network.
 6. The method as claimed in claim 4 wherein the tracking device communication link is comprised of a virtual carrier network.
 7. The method as claimed in claim 4 wherein the tracking device communication link is comprised of a control channel associated with a cellular telephone network.
 8. The method as claimed in claim 7 wherein the cellular telephone network is comprised of an AMPS cellular telephone network.
 9. The method as claimed in claim 4 wherein the terminal is a service provider terminal.
 10. The method as claimed in claim 4 wherein the terminal is a customer terminal.
 11. The method as claimed in claim 10 wherein the tracking device management system accessing step is further comprised of establishing a customer communication link between the customer terminal and the tracking device management system.
 12. The method as claimed in claim 11 wherein the customer communication link is comprised of a telecommunication link.
 13. The method as claimed in claim 12 wherein the customer communication link is comprised of a telephone link.
 14. The method as claimed in claim 12 wherein the customer communication link is comprised of a computer network.
 15. The method as claimed in claim 14 wherein the management system communication interface is comprised of a tracking device management web interface.
 16. The method as claimed in claim 15 wherein the tracking device management system is further comprised of a tracking device management website and wherein the tracking device management web interface is comprised of the tracking device management website.
 17. The method as claimed in claim 1, further comprising the step of transmitting a confirmation that the tracking device has been configured from the tracking device to the tracking device management system through the tracking device communication link.
 18. The method as claimed in claim 17, further comprising the step of modifying the database to reflect the configuration of the tracking device after the confirmation has been received by the tracking device management system.
 19. The method as claimed in claim 18 wherein the terminal is a service provider terminal.
 20. The method as claimed in claim 18 wherein the terminal is a customer terminal. 